Factors that influence layout
Volume, weight of items to be produced.
Nature of the service to be provided.
Cost of the building to house the operation.
The product mix that must have a facility.
The fragility of the product or component.
Facility Layout Design : Arrangement of machines, storage areas, and/or work areas usually within the
confines of a physical structure, such as a retail store, an office, a warehouse, or a manufacturing facility.
1900
Industrial Revolution
1910 Factory Organization & Administration Book by Hugo
Diemer
1914 Moving automotive
assembly line by Henry Ford
1954 Quadratic assignment problem
for macro & micro level by Kopmans &
Beckman
1955-1995 Optimal & Heuristic Algorithm
1959 Systematic Layout Planning by
Muther
1963 CRAFT by Armour & Buffa
1980 Flexible manufacturing
system
Late 1980s Automation
1985 Modern software application
1990-2000 Dynamic & robust layout
Facility Location
Type, Volume of Products to be Manufactured or Service to be Provided
Manufacturing (Service) Processes Required
Design of Components (Service)
Type, Number of Equipment Required
Process Planning
Tooling, Fixture Determination
Determination of Machine (Service)
Cells
Layout of Machine (Service)
Cells
Layout of Equipment within
Each Cell
Determining Material Handling
Methods
Type, Number of Material Handling
Devices
Determining Flow of Products (People)
Scheduling and Planning of Jobs (Services Steps)
Overall System Design
Inventory Control
Distribution of Goods
Quality Control and Customer
Service
20 - 75% of product cost attributed to materials handling (Sule, 1991 and Tompkins et al. 2003)
Layout of facilities affects materials handling costs
Facilities includes machines, departments, workstations, locker rooms, service areas, etc.
Determine level of decision
Strategic design or Long-term design ?
Planning or Intermediate design ?
Operational or short-term design ?
Good layout increases productivity efficiency
Reducing congestion permits smooth flow of people and material
Space utilization is effective and efficient
Facilitates communication and supervision
Safe and pleasant working environment
Reduces bottlenecks in moving people or material.
Minimizes materials-handling costs.
Reduces hazards to personnel.
Utilizes labor efficiently.
Increases morale.
Utilizes available space effectively and efficiently.
Provides flexibility.
Provides ease of supervision.
Facilitates coordination and face-to-face communication where appropriate.
Some pairs of departments
must be adjacent
Some pairs of departments must not be
adjacent
Some departments
only in specific locations
Existing building
constraints
OSHA regulations,
fire codes, etcc
Just in Time (JIT) manufacturer
Re-layout of an existing facility
Re-layout due to increased traffic (resulting from a merger)
Consolidation of manufacturing operations from two or more sites to one
Leasing of office space in a multi-story building
Find a better layout in existing space
Introduction of new product lines
New Facility
General Re-layout (retrofit)
Expansion due to new product(s)
Expansion due to sales growth in existing products
Re-organization of work areas (evolutionary design)
Outsourcing of logistics capability
Addition of automation technology
Problem elimination
Cost reduction
Product discontinuation
Is the company outgrowing its space?
Is available space too expensive?
Is building in the proper location?
How will a new layout affect the organization and service?
Are office operations too centralized or decentralized?
Does the office structure support the strategic plan?
Is the new layout in tune with the company’s image
Does customer physically participate in service delivery?
Minimize transportation cost of raw materials, sub-assemblies, work-in-process inventory, tools, parts, finished products, etc.
Facilitate traffic flow
Improve employee morale
Minimize or eliminate risk of injury and property damage
Ease of supervision and face-to-face communication
Applicable to both manufacturing and non manufacturing operations.
Advantages :
Reduces materials handling.
Accommodates small amounts of work in process.
Reduces transit times.
Simplifies production planning and control systems.
Simplifies tasks, enabling unskilled workers to learn task quickly.
Arrange machines and/or workers in accordance with the sequence of operations
for a given product or service.
Disadvantages : Lack of process flexibility. Lack of flexibility in timing: the
product can not flow through the line faster than the slowest task can be accomplished unless that task is performed at several stations.
Large investments: special-purpose equipment and duplication is required to offset lack of flexibility in timing.
Dependence of the whole on each part: a breakdown of one machine or absence of enough operators to staff all work stations may stop the entire line.
Worker fatigue: workers may become bored by the endless repetition of simple tasks.
Applicable to both manufacturing and non manufacturing operations.
Advantages
Flexibility: equipment and personnel can be used where they are needed.
Smaller investment in equipment: duplication is not necessary unless volume is large.
Expertise: supervisors for each department become highly. knowledgeable about their functions
Diversity of tasks: changing work assignments make work more satisfying for people who prefer variety.
Grouping together of machines and/or workers doing similar tasks.
Disadvantages : Lack of process efficiency:
backtracking and long movements may occur in the handling of materials.
Lack of efficiency in timing: workers must wait between tasks.
Complication of production planning and control.
Cost: workers must have broad skills and must be paid higher wages than assembly line workers.
Lowered productivity: because each job is different it requires different setups and operator training.
Manufacturing and non-manufacturing operations of bulky or fragile products, e.g., ships and planes
Advantages
Reduces movement of work items; minimizes damage or cost of moving.
More continuity of the assigned work force (since the item does not go from one department to another). This reduces the problems of re-planning and instructing people each time a new type of activity is to begin.
Move machines and/or workers to the site; products normally remains in one location
for its entire manufacturing period.
Disadvantages : Since the same workers are involved
in more operations, skilled and versatile workers are required. The necessary combination of skills may be difficult to find and high pay levels may be necessary.
Movement of people and equipment to and from the work site may be expensive.
Equipment utilization may be low because the equipment may be left at a location where it will be needed again in a few days rather than moved to another location where it would be productive.
Group technology is the technique of identifying and bringingtogether related or similar parts in a production process inorder to utilize the inherent economy of flow productionmethods. (V. B. Solaja)
Group Technology layout is also called manufacturing celllayout.
Example : A plant producing 10,000 part numbers may beable to group the parts into 50 or 60 families. Each familywould possess similar design and manufacturingcharacteristics.
Hence, the processing of each member of a given familywould be similar, and this results in manufacturingefficiencies in the form of:
Reduced set-up,
Lower in-process inventories,
Better scheduling,
Improved tool control,
Standard process plan.
Steps involved:1. Determine the size of each department.
2. Determine the arrangement of the department with respect to one another.
3. Determine the arrangement of the equipment and people within eachdepartment.
Richard Muther's Systematic Layout Planning Utilizes a grid matrix to display the ratings of the relative importance of the
distance between department
Closeness ratings:
Typically measured from department center to department center.
Euclidean distances are appropriate when the layout space is very open and movement within it can follow a direct path.
Rectilinear (sometimes called rectangular) distance is more appropriate for layouts aisles or hallways where one generally reaches a destination after making one or more right turns.
Heuristic, improvement algorithms.
CRAFT (Computerized Relative Allocation of Facilities Techniques) is the best known of the heuristics approaches; attempts to minimize materials-handling cost by calculating cost, pair-wise interchanging departments, calculating more costs until a good solution is obtained.
ALDEP (Automated Layout Design Program) and CORELAP (Computerized Relationship Layout Planning) attempt to maximize a nearness rating within the facility dimension constraints.
PREP (Plant Re-layout and Evaluation Package) analyzes multilevel structures and is based on actual footage traveled by materials-handling equipment.
Each department is 10 feet by 10 feet, distances are rectilinear, which of the following two layouts is better?Layout A Layout B
3 8
7 4
1 10
9 2
6 5
4 7
10 1
2 9
5 6
8 3
Product DepartmentProcessing Sequence
Quantity ProcessedPer Month
A 1 5 410 1,000 units
B 2 6 3 9 2,000
C 210 1 9 3,000
D 1 7 810 1,000
E 2 5 6 9 2,000
F 1 7 410 4,000
Compute the total travel for each product through each layout alternative.
Product
Department
Processing
Sequence
Distance per
Product (feet)
Layout A
Distance per
Product (feet)
Layout B (feet)
A 1 5 410 30+30+10= 70 30+30+10= 70
B 2 6 3 9 20+40+30= 90 20+10+10= 50
C 210 1 9 10+10+10= 30 10+10+10= 30
D 1 7 810 10+20+20= 50 10+50+30= 90
E 2 5 6 9 10+10+10= 30 10+10+10= 30
F 1 7 410 10+10+10= 30 10+10+10= 30
Compute total distance traveled per month by each product through each layout alternative.
Units per Distance per Product Distance per Month
Product Month Layout A Layout B Layout A Layout B
A 1000 70 70 70,000 70,000
B 2000 90 50 180,000 100,000
C 3000 30 30 90,000 90,000
D 1000 50 90 50,000 90,000
E 2000 30 30 60,000 60,000
F 4000 30 30 120,000 120,000
Totals 570,000 530,000*
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